Three dimensional nano-lithography: combined electron and ion beam fabrication. By adding one more dimension to a planar (hence two dimensional - 2D) lithography, it will become possible to structure and texture materials in three dimensions (3D) by combining electron beam lithography (2D) and ion beam milling (3D) with the highest precision of several nanometres. This will open new applications in photonics and sensing.
Thermodynamics inversion for mineral systems. This project aims to provide a newly developed science approach to the Australian Lithospheric Architecture Magnetotelluric Project (AusLAMP). AusLAMP provides unparalleled geophysical information aimed at unravelling the tectonic history of the Australian continent and its mineral potential. The project will use thermodynamically based geodynamic simulators to jointly analyse and quantify intraplate deformation. This will illuminate the cause of dri ....Thermodynamics inversion for mineral systems. This project aims to provide a newly developed science approach to the Australian Lithospheric Architecture Magnetotelluric Project (AusLAMP). AusLAMP provides unparalleled geophysical information aimed at unravelling the tectonic history of the Australian continent and its mineral potential. The project will use thermodynamically based geodynamic simulators to jointly analyse and quantify intraplate deformation. This will illuminate the cause of driving fluid flow thorough the lithosphere, mineralisation phenomena, their datasets and geometries, and dynamic aspects of the processes driving mineral systems.Read moreRead less
Low-Cost Multiple Pencil-Beam Lens Antenna System. The project aims to develop a new multiple pencil beam antenna system, taking advantage of CIs' preliminary inventions in lens antennas, 3D printed antennas and arrays, and antenna feeding networks. A dual-polarised antenna array architecture will enhance the sensing quality and resolution of our partner organisation's cleaning robot. It will enable the robot to recognise human presence and movement in low-light conditions for rapid and safe dis ....Low-Cost Multiple Pencil-Beam Lens Antenna System. The project aims to develop a new multiple pencil beam antenna system, taking advantage of CIs' preliminary inventions in lens antennas, 3D printed antennas and arrays, and antenna feeding networks. A dual-polarised antenna array architecture will enhance the sensing quality and resolution of our partner organisation's cleaning robot. It will enable the robot to recognise human presence and movement in low-light conditions for rapid and safe disinfection of public spaces. The project will have an immediate socio-economic impact on local businesses and communities. The outcomes of the project will create safer public environments for people living and working in Australia, and boost economic recovery in the post-pandemic period.Read moreRead less
Bodies in space. By investigating how a change in shape of the human body can produce a change in spatial orientation, the project will bring a fundamental advance of knowledge in the intersection of applied mathematics, sports science and mechanical engineering. These knowledge advances will lead to a novel theory regarding the control of the aerial dynamics of athletes, specifically springboard and platform divers. When applied in collaboration with world class Australian athletes, this theory ....Bodies in space. By investigating how a change in shape of the human body can produce a change in spatial orientation, the project will bring a fundamental advance of knowledge in the intersection of applied mathematics, sports science and mechanical engineering. These knowledge advances will lead to a novel theory regarding the control of the aerial dynamics of athletes, specifically springboard and platform divers. When applied in collaboration with world class Australian athletes, this theory will result in innovative platform and springboard diving techniques and improved performance. The reach of new insights generated by this work extends to many other fields, including robotics, spacecraft dynamics and nano technology.Read moreRead less
Practical model-based control for low emission and low cost diesel engines. Practical model-based control for low emission and low cost diesel engines. This project aims to develop and implement robust multivariable model predictive control algorithms for low emission and low cost diesel engines that reduce calibration effort. Legislative and increasing consumer requirements demand better control approaches than have been deployed in production vehicles to date, and motivate the use of model bas ....Practical model-based control for low emission and low cost diesel engines. Practical model-based control for low emission and low cost diesel engines. This project aims to develop and implement robust multivariable model predictive control algorithms for low emission and low cost diesel engines that reduce calibration effort. Legislative and increasing consumer requirements demand better control approaches than have been deployed in production vehicles to date, and motivate the use of model based techniques to meet performance and emissions specifications. However, current model-based controllers amplify the calibration effort and increase development costs as the tuning parameters are not related to time domain specifications. The anticipated outcome is new model based control architectures that improve diesel engine operation and reduce its calibration effort and cost.Read moreRead less
Contraception understandings and experiences of Australian women. Most women use contraception for much of their lives, yet we know little about how they experience the effects on their bodies and relationships. This in-depth study will explore women's thoughts, feelings and experiences and the results will be used for training doctors and nurses in contraceptive counselling and prescribing.
Investigating a novel, physical adjuvant for improving immune responses of vaccines. This project will explore a new way to significantly improve vaccine immune responses: with practical devices that apply pressure on the skin - for the body to create its own, localised adjuvant. This is novel - completely different to today's adjuvants, which are chemicals put into our bodies.
Engineering drug transportation behaviour in polymeric gel systems. In collaboration with Seagull Technologies, this project aims to engineer, study and mathematically model ultrasound-assisted biomacromolecule transport behaviour within polymeric gel systems, which may be useful in new drug delivery methods. The intended outcome is a novel set of polymeric gel systems, which can reversibly bind a wide variety of drugs (small molecules, nucleic acid based drugs, proteins), in which drug release ....Engineering drug transportation behaviour in polymeric gel systems. In collaboration with Seagull Technologies, this project aims to engineer, study and mathematically model ultrasound-assisted biomacromolecule transport behaviour within polymeric gel systems, which may be useful in new drug delivery methods. The intended outcome is a novel set of polymeric gel systems, which can reversibly bind a wide variety of drugs (small molecules, nucleic acid based drugs, proteins), in which drug release is triggered by an electric potential and drug transport is controlled by means of sonophoresis. The main advantage of drug delivery via sonophoresis is elimination of risks associated with injections such as infection and damage to local tissue, and elimination of patient discomfort, pain and fear.Read moreRead less
Versatile dosimetry systems for radiotherapy and industrial applications: novel storage phosphor and associated reader technologies. Radiotherapy is an important procedure in the treatment of cancer, and it is essential that the radiation dosage can be accurately measured. This project will develop technology which will enable us to monitor radiation dosage in real time and very accurately. This will be of importance in medical science and also for industrial applications.
A Nano-platform for affordable and ultra-sensitive bio-marker detection. This project aims to develop a next-generation nano-platform and lateral flow assays (LFA) device for ultra-sensitive detection of biomarkers. LFA’s are used for the rapid detection of biomarkers; however, their sensitivity is relatively low. The preparation of innovative porous silica nanoparticles with uniform particle size and controllable structures (pore size, pore structure, internal surface functionality and density ....A Nano-platform for affordable and ultra-sensitive bio-marker detection. This project aims to develop a next-generation nano-platform and lateral flow assays (LFA) device for ultra-sensitive detection of biomarkers. LFA’s are used for the rapid detection of biomarkers; however, their sensitivity is relatively low. The preparation of innovative porous silica nanoparticles with uniform particle size and controllable structures (pore size, pore structure, internal surface functionality and density) will enable higher loading of quantum dots and enhanced detection sensitivity. Improving the detection sensitivity of the inexpensive and disposable LFA diagnostic technology will open up new applications for rapid and accurate biomarker detection. The resulting technology will advance Australian industrial capability and competiveness in the global lateral flow assays market, which is estimated to be valued at US$ 6.78 billion by 2020.Read moreRead less